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引用次数: 2
摘要
我们展示了光晕和深源/漏极(S/D)结对非熔体激光脉冲退火(LSA)制备器件性能的影响。通过优化这两种结构,与仅优化栅极- s /D重叠结构的传统LSA相比,我们的性能提高了10%,并减少了热载流子退化。通过激光热处理(LTP)的栅极预退火与LSA S/D激活也进行了研究,以有效抑制多晶硅栅极耗尽,同时在S/D中实现高度激活的超浅结,从而提高晶体管性能。与传统的尖峰RTA装置相比,Ioff降低了一个数量级以上
Laser Annealing Technology and Device Integration Challenges
We have shown impacts of halo and deep source/drain (S/D) junction on the performance of devices that were fabricated by non-melt laser spike annealing (LSA). By optimizing both profiles, we achieved 10%-better performance and reduced hot carrier degradation compared to those by the conventional LSA that have only the optimized gate-S/D overlap structure. Gate pre-annealing by laser thermal process (LTP) was also investigated in conjunction with LSA S/D activation to effectively suppress poly-Si gate depletion while achieving highly activated ultra-shallow junctions in S/D, leading to improved transistor performance. Ioff was reduced more than one order of magnitude compared with conventional spike RTA devices
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